Homework Answers
Here,
Applying the formula ,
2*n*t = (m)*(wavelength)
2(n)(293 X 10^-9) = (1)(637X 10^-9)
Refractive index of the film , n = 1.087
A tank of gasoline (n = 1.40) is open to the air (n = 1.00). A...
A tank of gasoline (n = 1.40) is open to the air (n = 1.00). A thin film of liquid floats on the gasoline and has a refractive index that is between 1.00 and 1.40. Light that has a wavelength of 630 nm (in vacuum) shines perpendicularly down through the air onto this film, and in this light the film looks bright due to constructive interference. The thickness of the film is 272 nm and is the minimum nonzero thickness...
A tank of gasoline (n = 1.40) is open to the air (n = 1.00). A...
A tank of gasoline (n = 1.40) is open to the air (n = 1.00). A thin film of liquid floats on the gasoline and has a refractive index that is between 1.00 and 1.40. Light that has a wavelength of 612 nm(in vacuum) shines perpendicularly down through the air onto this film, and in this light the film looks bright due to constructive interference. The thickness of the film is 255 nm and is the minimum nonzero thickness for...
A tank of gasoline (n = 1.40) is open to the air (n = 1.00). A...
A tank of gasoline (n = 1.40) is open to the air (n = 1.00). A thin film of liquid floats on the gasoline and has a refractive index that is between 1.00 and 1.40. Light that has a wavelength of 620 nm (in vacuum) shines perpendicularly down through the air onto this film, and in this light the film looks bright due to constructive interference. The thickness of the film is 268 nm and is the minimum nonzero thickness...
When monochromatic light shines perpendicularly on a soap film (n = 1.33) with air on each...
When monochromatic light shines perpendicularly on a soap film (n = 1.33) with air on each side, the second smallest nonzero film thickness for which destructive interference of reflected light is observed is 230 nm. What is the vacuum wavelength of the light in nm?
When monochromatic light shines perpendicularly on a soap film (n = 1.33) with air on each...
When monochromatic light shines perpendicularly on a soap film (n = 1.33) with air on each side, the second smallest nonzero film thickness for which destructive interference of reflected light is observed is 354 nm. What is the vacuum wavelength of the light in nm?
+BACK NEXT FULL SCREEN PRINTER VERSION MESSAGE MY INSTRUCTOR Interactive LearningWare 27.2 reviews the concepts that...
+BACK NEXT FULL SCREEN PRINTER VERSION MESSAGE MY INSTRUCTOR Interactive LearningWare 27.2 reviews the concepts that are important in this problem. A uniform layer of water (n = 1.33) lies on a glass plate (n = 1.52). Light shines perpendicularly on the layer. Because of constructive interference, the layer looks maximally bright when the wavelength of the light is 438 nm in vacuum and also when it is 657 in vacuum. (a) Obtain the minimum thickness of the film. (b)...
Interactive LearningWare 27.2 reviews the concepts that are important in this problem. A uniform layer of...
Interactive LearningWare 27.2 reviews the concepts that are important in this problem. A uniform layer of water (n = 1.33) lies on a glass plate (n = 1.52). Light shines perpendicularly on the layer. Because of constructive interference, the layer looks maximally bright when the wavelength of the light is 434 nm in vacuum and also when it is 651 in vacuum. (a) Obtain the minimum thickness of the film. (b) Assuming that the film has the minimum thickness and...
The surface of a flat piece of glass is covered by a thin plastic that has...
The surface of a flat piece of glass is covered by a thin plastic that has thickness 180 nm. There is air above the plastic film. The refractive index of the glass is 1.40 and the refractive index of the plastic film is 1.80. Light of wavelength lambda_air in air shines at normal incidence on the plastic film. What is the largest value of lambda_air for which there will be constructive interference between the light reflected at the top and...
A thin layer of oil (n = 1.40) floats on the surface of a puddle of...
A thin layer of oil (n = 1.40) floats on the surface of a puddle of water (n = 1.33). One part of the oil film appears bright greenish-blue, i.e. it strongly reflects light with a wavelength in vacuum of 497 nm. What is the smallest nonzero film thickness of the oil film in this region? 207 nm O 89.0 nm 124 nm 249 nm O 178 nm
A thin layer of oil (n = 1.40) floats on the surface of a puddle of...
A thin layer of oil (n = 1.40) floats on the surface of a puddle of water (n = 1.33). One part of the oil film appears bright greenish-blue, i.e. it strongly reflects light with a wavelength in vacuum of 497 nm. What is the smallest nonzero film thickness of the oil film in this region? O 207 nm O 89.0 nm O 124 nm O 249 nm 178 nm
+BACK NEXT FULL SCREEN PRINTER VERSION MESSAGE MY INSTRUCTOR Interactive LearningWare 27.2 reviews the concepts that are important in this problem. A uniform layer of water (n = 1.33) lies on a glass plate (n = 1.52). Light shines perpendicularly on the layer. Because of constructive interference, the layer looks maximally bright when the wavelength of the light is 438 nm in vacuum and also when it is 657 in vacuum. (a) Obtain the minimum thickness of the film. (b)...
The surface of a flat piece of glass is covered by a thin plastic that has thickness 180 nm. There is air above the plastic film. The refractive index of the glass is 1.40 and the refractive index of the plastic film is 1.80. Light of wavelength lambda_air in air shines at normal incidence on the plastic film. What is the largest value of lambda_air for which there will be constructive interference between the light reflected at the top and...
A thin layer of oil (n = 1.40) floats on the surface of a puddle of water (n = 1.33). One part of the oil film appears bright greenish-blue, i.e. it strongly reflects light with a wavelength in vacuum of 497 nm. What is the smallest nonzero film thickness of the oil film in this region? 207 nm O 89.0 nm 124 nm 249 nm O 178 nm
A thin layer of oil (n = 1.40) floats on the surface of a puddle of water (n = 1.33). One part of the oil film appears bright greenish-blue, i.e. it strongly reflects light with a wavelength in vacuum of 497 nm. What is the smallest nonzero film thickness of the oil film in this region? O 207 nm O 89.0 nm O 124 nm O 249 nm 178 nm
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